UV Vis spectrophotometry

UV/Vis Spectrophotometry

Instruments, Accessories, Services, and Software for UV Vis Spectrophotometry

Spectrophotometry is a powerful technique used to measure a sample's light absorption and transmission properties, providing valuable insights into its composition and chemical properties. Whether you're working in life sciences, quality control, environmental science, or any other field where accurate and reliable measurements are critical to success, our spectrophotometric solutions offer performance, ease of use, and scalability, helping you achieve faster, more precise results with every analysis.

Call for Quote
easyplus-uvvis-3-in-1
easydirect-uvvis-software
UV/VIS Application Search
Analytical Chemistry UserCom Subscription Banner
easyplus-uvvis-3-in-1
easydirect-uvvis-software
UV/VIS Application Search
Analytical Chemistry UserCom Subscription Banner
1800 88 1248
Call Service

FAQ

What is UV Vis spectrophotometry?

Spectrophotometry is the measurement of light absorption by a substance as a function of wavelength. It is commonly used in analytical chemistry, biochemistry, and molecular biology.

What are the applications of UV Vis spectrophotometry?

UV Vis spectrophotometry can be used to determine the concentration of a solution, to identify and quantify the components of a mixture, and to study the kinetics of a reaction.

Find our more in the UV Vis Application Library

What is the difference between spectrophotometry and spectroscopy?

Spectroscopy is a broader term that refers to the study of the interaction between electromagnetic radiation and matter. Spectrophotometry is a specific type of spectroscopy that measures the absorption of light by a substance.

Learn more about the theory of UV Vis spectrophotometry in the Easy Spectrophotometry Guide or the Spectrophotometry Applications and Fundamentals Guide

How does UV Vis spectrophotometry work?

A UV Vis spectrophotometer measures the amount of light absorbed by a sample at a specific wavelength. The amount of light absorbed is directly proportional to the concentration of the substance in the sample.

Show more